As currently there is lack of documentation on DI topic - Dependency Injection. What are pros/cons of using built-in DI over existing solutions like (Ninject, Autofac, StructureMap)? And what are current limitations of default dependency injection (if any)?

Additionally, can someone help me to understand what is the difference between these registrations?

public void ConfigureServices(IServiceCollection services)
    services.AddTransient<IService, Service>();
    services.AddScoped<IService, Service>();
    services.AddSingleton<IService, Service>();
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    Are there dotnetcore based implementations for any of the standard DI containers (ninject etc.) as yet? – Abhijeet Patel Jul 17 '16 at 5:06
  • @AbhijeetPatel by now, most (if not all) DI Containers are compatible with .NET Core and .NET Standard. – Steven Mar 3 '18 at 23:16

For product development of any reasonably sized application that practice loose coupling and follows the SOLID principles, .NET Core's DI container is unsuited, because:

  • It doesn't help you in verifying your configuration, making it really hard to diagnose problems that come from common misconfigurations. In a reasonably sized application, it's actually quite hard to spot these mistakes yourself. UPDATE: Version 3 of MS.DI now contains a feature called ValidateOnBuild, but the only thing it does is check whether all registrations can be created.
  • It is impossible to apply Cross-Cutting Concerns using interceptors or decorators in a maintainable fashion. This makes maintaining any reasonably sized application really expensive. UPDATE: There are several third-party libraries that try to fill the gap, but due to limitations in MS.DI, they can't completely fill this gap (e.g. decorate open-gemeric registrations)
  • Although it supports mapping of open-generic abstractions to open-generic implementations, its implementation is rather naive and is unable to work with generic types with type constraints, more complex generic type mappings, and variance.
  • It is impossible to make conditional/contextual registrations, in such way that registrations only get injected to a certain set of consumers, while using Auto-Wiring. e.g. when having two components Service1 and Service2 that both depend on ILogger, you might want to inject Service1 with NullLogger and Service2 with FileLogger, or you want Service1 to be injected with Logger<Service1> and Service2 with Logger<Service2>.

The main reason for those limitations to exist is because it's the goal of the built-in container to provide DI capabilities to especially the framework itself, while keeping its feature set to a minimum in the hope that more mature DI containers would be able to integrate with it. In other words, it tries to act as an Least-Common Denominator (LCD). Because of its LCD function, it can never grow to a full-fletched DI Container that is practical for application development (not without breaking the promise of being an LCD).

If you start with a new and simple project, my advice is to apply Pure DI. This means you hand-wire components inside the Composition Root without using a container and without creating your own DI Container. Instead you resolve your types by plugging in your custom IControllerActivator. Later on, when features such as Auto-Wiring, Auto-Registration and Interception would improve maintainability of your Composition Root, switch to one of the established DI libraries that fits your requirements.

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    Still valid with ASP.NET Core 2.0? – Legends Mar 3 '18 at 22:44
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    @Legends. Yep. This answer still holds with .NET Core 2.0. – Steven Mar 3 '18 at 23:12
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    @Steven : Any improvements with .net core 2.2 and 3-preview ? – leox Mar 30 '19 at 16:31
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    @leox Nope! And you don't have to expect any progress in this area. Microsoft has painted itself in a corner with their container. Their DI Container will never evolve to a feature-rich DI Container. – Steven Mar 30 '19 at 19:25
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    Yep. This answer still holds with .NET Core 3.0. – Steven May 7 '19 at 8:04

Here it is explained :

  • Transient - A new instance is created every time
  • Scoped - A single instance is created inside the current scope. It is equivalent to Singleton in the current scope
  • Singleton - A single instance is created and it acts like a singleton
  • Instance - A specific instance is given all the time. You are responsible for its initial creation

Alpha version had this limitations :

  • It only supports constructor injection
  • It can only resolve types with one and only one public constructor
  • It doesn’t support advanced features (like per thread scope or auto discovery)

If you aren't writing really complicated product default DI container should be sufficient for you. In other cases you can try libraries you already mentioned that have advanced features.

My advice would be to start with the default one and change implementation when(if) you hit something you can't do with it.

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    Alpha version is no longer relevant. – NucS Mar 22 '16 at 19:12

What is the difference between these registrations?

  • Transient - instantiated every time it is retrieved
  • Scoped - instantiated once per http request and will be available for the lifetime of the http request
  • Singleton - instantiated once and will be available for the entire lifetime of your application
  • Instance - equivalent to singleton except you provide the object instance instead of the framework creating the instance

Source: http://www.khalidabuhakmeh.com/asp-vnext-dependency-injection-lifecycles, http://dotnetliberty.com/index.php/2015/10/15/asp-net-5-mvc6-dependency-injection-in-6-steps/

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To answer your first question: it seems that ASP.NET docs were updated and now clearly state what is each type of registration for:

ASP.NET services can be configured with the following lifetimes:


Transient lifetime services are created each time they are requested. This lifetime works best for lightweight, stateless service.


Scoped lifetime services are created once per request.


Singleton lifetime services are created the first time they are requested, and then every subsequent request will use the same instance. If your application requires singleton behavior, allowing the services container to manage the service’s lifetime is recommended instead of implementing the singleton design pattern and managing your object’s lifetime in the class yourself.

Instance [pre RTM only!]

You can choose to add an instance directly to the services container. If you do so, this instance will be used for all subsequent requests (this technique will create a Singleton-scoped instance). One key difference between Instance services and Singleton services is that the Instance service is created in ConfigureServices, while the Singleton service is lazy-loaded the first time it is requested.

Updated in RTM

Note that in Asp.Net Core RTM docs Instance was removed. Instance is basically the same thing as Singleton, but they had different initialization semantics (Singleton was lazy loaded). But now there is no AddInstance API, only AddSignleton which can take already created instance.

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